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Building Practical High‐Voltage Cathode Materials for Lithium‐Ion Batteries

Advances in Materials, 2022
It has long been a global imperative to develop high‐energy‐density lithium‐ion batteries (LIBs) to meet the ever‐growing electric vehicle market. One of the most effective strategies for boosting the energy density of LIBs is to increase the output ...
Jingwei Xiang   +7 more
semanticscholar   +1 more source

Challenges and Recent Advances in High Capacity Li‐Rich Cathode Materials for High Energy Density Lithium‐Ion Batteries

Advances in Materials, 2021
Li‐rich cathode materials have attracted increasing attention because of their high reversible discharge capacity (>250 mA h g−1), which originates from transition metal (TM) ion redox reactions and unconventional oxygen anion redox reactions.
W. He   +11 more
semanticscholar   +1 more source

Advances and Perspectives of Cathode Storage Chemistry in Aqueous Zinc-Ion Batteries.

ACS Nano, 2021
Rechargeable aqueous zinc-ion batteries (AZIBs) have captured a surge of interest in recent years as a promising alternative for scalable energy storage applications owing to the intrinsic safety, affordability, environmental benignity, and impressive ...
Xiao Wang   +6 more
semanticscholar   +1 more source

Cobalt‐Free Cathode Materials: Families and their Prospects

Advanced Energy Materials, 2022
With the rapid growth of global electro‐mobility, the demand for cobalt is rapidly increasing because it is currently an indispensable component of the cathode materials in lithium‐ion batteries (LIBs).
Hong Zhao   +8 more
semanticscholar   +1 more source

Origin of the Overpotential for Oxygen Reduction at a Fuel-Cell Cathode.

Journal of Physical Chemistry B, 2004
We present a method for calculating the stability of reaction intermediates of electrochemical processes on the basis of electronic structure calculations.
J. Nørskov   +6 more
semanticscholar   +1 more source

Reversible planar gliding and microcracking in a single-crystalline Ni-rich cathode

Science, 2020
Cracking the problem of cracking cathodes Polycrystalline cathode materials that contain a combination of nickel, manganese, and cobalt have been used for advanced lithium batteries.
Yujing Bi   +11 more
semanticscholar   +1 more source

Lithium batteries and cathode materials.

Chemical Reviews, 2004
In the previous paper Ralph Brodd and Martin Winter described the different kinds of batteries and fuel cells. In this paper I will describe lithium batteries in more detail, building an overall foundation for the papers that follow which describe ...
Marius Amereller, M. Whittingham
semanticscholar   +1 more source

Advanced Cathode Materials for Protonic Ceramic Fuel Cells: Recent Progress and Future Perspectives

Advanced Energy Materials, 2022
Intermediate‐temperature proton ceramic fuel cells (PCFCs)–a promising power generation technology–have attracted significant attention in recent years because of their unique advantages over conventional high‐temperature solid oxide fuel cells and low ...
Ning Wang   +9 more
semanticscholar   +1 more source

An Air‐Stable High‐Nickel Cathode with Reinforced Electrochemical Performance Enabled by Convertible Amorphous Li2CO3 Modification

Advances in Materials, 2022
High‐nickel (Ni ≥ 90%) cathodes with high specific capacity hold great potential for next‐generation lithium‐ion batteries (LIBs). However, their practical application is restricted by the high interfacial reactivity under continuous air erosion and ...
H. Sheng   +11 more
semanticscholar   +1 more source

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